Astrocyte Calcium Signaling
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Source: https://github.com/AllenNeuralDynamics/ComputationalReviewAstrocytes/blob/1a55da0634a3bc04e5688792ed12141ce271d28e/content/03_calcium_signaling.md
Citation anchors captured: 104
Citation contexts
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1CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference If cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section{ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled “astrocyte Ca^{2+}” in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp... -
2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference If cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section{ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled “astrocyte Ca^{2+}” in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp... -
3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference If cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section{ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled “astrocyte Ca^{2+}” in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp... -
4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference If cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section{ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled “astrocyte Ca^{2+}” in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp... -
5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP3R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2-/- mice 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference; (ii) IP3R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...
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6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP3R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2-/- mice 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference; (ii) IP3R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...
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7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP3R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2-/- mice 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference; (ii) IP3R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...
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2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference0 Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP3R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2-/- mice 2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference1; (ii) IP3R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep... -
2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference2 Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP3R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2-/- mice 2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference3; (ii) IP3R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep... -
2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference4 Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP3R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2-/- mice 2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference5; (ii) IP3R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep... -
2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference6 Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP3R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2-/- mice 2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference7; (ii) IP3R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep... -
2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference8 Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP3R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2-/- mice 2CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference9; (ii) IP3R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep... -
3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference0 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference1. Within that framework, sparse waves and synchronous inter-astrocyte... -
3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference2 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference3. Within that framework, sparse waves and synchronous inter-astrocyte... -
3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference4 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference5. Within that framework, sparse waves and synchronous inter-astrocyte... -
3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference6 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference7. Within that framework, sparse waves and synchronous inter-astrocyte... -
3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference8 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 3CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference9. Within that framework, sparse waves and synchronous inter-astrocyte... -
4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference0 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference1. Within that framework, sparse waves and synchronous inter-astrocyte... -
4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference2 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference3. Within that framework, sparse waves and synchronous inter-astrocyte... -
4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference4 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference5. Within that framework, sparse waves and synchronous inter-astrocyte... -
4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference6 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference7. Within that framework, sparse waves and synchronous inter-astrocyte... -
4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}
sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference8 Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal 4CitationIf cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}sec:identity-diversity, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...content/03_calcium_signaling.md:line 4Open reference9. Within that framework, sparse waves and synchronous inter-astrocyte... -
5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference0 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference1 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference2 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference3 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference4 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference5 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference6 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference7 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference8 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference9 The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — “microdomains” — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference0 Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference1; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference2. In a head-to-head awake-mouse comparison for c...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference3 Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference4; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference5. In a head-to-head awake-mouse comparison for c...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference6 Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference7; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference8. In a head-to-head awake-mouse comparison for c...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference9 Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference0; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference1. In a head-to-head awake-mouse comparison for c...
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6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference2 Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference3; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference4. In a head-to-head awake-mouse comparison for c...
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6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference5 Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference6; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference7. In a head-to-head awake-mouse comparison for c...
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6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference8 The Itpr2-/- (IP3R2-KO) mouse was for a decade the field’s most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference9 used IP3R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference0 The Itpr2-/- (IP3R2-KO) mouse was for a decade the field’s most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference1 used IP3R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference2 The Itpr2-/- (IP3R2-KO) mouse was for a decade the field’s most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference3 used IP3R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference4 The Itpr2-/- (IP3R2-KO) mouse was for a decade the field’s most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference5 used IP3R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference6 The Itpr2-/- (IP3R2-KO) mouse was for a decade the field’s most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference7 used IP3R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference8 The tension sharpens rather than dissolves when one adds behaviour. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference9 ran a broad behavioural battery (anxiety, motor, sensory discrimination, spatial learning) on Itpr2-/- mice and reported that none of the measured behaviours were altered, arguing against a general requirement for astrocyte IP3R2-Ca^{2+} in cognition. 7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference0, by contrast, showed a sp...
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7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference1 The tension sharpens rather than dissolves when one adds behaviour. 7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference2 ran a broad behavioural battery (anxiety, motor, sensory discrimination, spatial learning) on Itpr2-/- mice and reported that none of the measured behaviours were altered, arguing against a general requirement for astrocyte IP3R2-Ca^{2+} in cognition. 7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference3, by contrast, showed a sp...
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7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference4 The tension sharpens rather than dissolves when one adds behaviour. 7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference5 ran a broad behavioural battery (anxiety, motor, sensory discrimination, spatial learning) on Itpr2-/- mice and reported that none of the measured behaviours were altered, arguing against a general requirement for astrocyte IP3R2-Ca^{2+} in cognition. 7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference6, by contrast, showed a sp...
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7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference7 The tension sharpens rather than dissolves when one adds behaviour. 7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference8 ran a broad behavioural battery (anxiety, motor, sensory discrimination, spatial learning) on Itpr2-/- mice and reported that none of the measured behaviours were altered, arguing against a general requirement for astrocyte IP3R2-Ca^{2+} in cognition. 7CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference9, by contrast, showed a sp...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference0 The tension sharpens rather than dissolves when one adds behaviour. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference1 ran a broad behavioural battery (anxiety, motor, sensory discrimination, spatial learning) on Itpr2-/- mice and reported that none of the measured behaviours were altered, arguing against a general requirement for astrocyte IP3R2-Ca^{2+} in cognition. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference2, by contrast, showed a sp...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference3 The tension sharpens rather than dissolves when one adds behaviour. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference4 ran a broad behavioural battery (anxiety, motor, sensory discrimination, spatial learning) on Itpr2-/- mice and reported that none of the measured behaviours were altered, arguing against a general requirement for astrocyte IP3R2-Ca^{2+} in cognition. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference5, by contrast, showed a sp...
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5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference6 The tension sharpens rather than dissolves when one adds behaviour. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference7 ran a broad behavioural battery (anxiety, motor, sensory discrimination, spatial learning) on Itpr2-/- mice and reported that none of the measured behaviours were altered, arguing against a general requirement for astrocyte IP3R2-Ca^{2+} in cognition. 5CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference, 6CitationThree Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan2015natneurosci, petravicz2014frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...content/03_calcium_signaling.md:line 11Open reference8, by contrast, showed a sp...
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... 54 additional anchors in refs_json
References
- [khakh_2015_coldspring] “If cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}`sec:identity-diversity`, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...”
- [shigetomi_2016_trendscell] “If cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}`sec:identity-diversity`, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...”
- [kofuji_2021_neuroscience] “If cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}`sec:identity-diversity`, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...”
- [halassa_2007_trendsmolecular] “If cortical astrocytes are molecularly heterogeneous along the layer, region, and species axes catalogued in Section {ref}`sec:identity-diversity`, then their Ca^{2+} signals cannot be treated as a single cell-autonomous variable either. The quantity labelled "astrocyte Ca^{2+}" in the primary literature is, on close inspection, a composite of at least three compartmentalised events: a slow, inositol-1,4,5-trisphosp...”
- [srinivasan_2015_natneurosci] “Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan_2015_natneurosci, petravicz_2014_frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...”
- [petravicz_2014_frontbehav] “Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan_2015_natneurosci, petravicz_2014_frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...”
- [shigetomi_2010_natneurosci] “Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan_2015_natneurosci, petravicz_2014_frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...”
- [shigetomi_2013_general] “Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan_2015_natneurosci, petravicz_2014_frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...”
- [shigetomi_2012_natneurosci] “Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan_2015_natneurosci, petravicz_2014_frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...”
- [srinivasan_2016_neuron] “Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan_2015_natneurosci, petravicz_2014_frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...”
- [dunn_2013_procnatl] “Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan_2015_natneurosci, petravicz_2014_frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...”
- [bonder_2014_jneurosci] “Three Ca^{2+} compartments of a cortical astrocyte. Schematic composite summarising conventions used throughout this section: (i) IP<sub>3</sub>R2-dependent somatic and major-branch Ca^{2+}, driven by Gq-coupled receptors and largely abolished in Itpr2<sup>-/-</sup> mice [srinivasan_2015_natneurosci, petravicz_2014_frontbehav]; (ii) IP<sub>3</sub>R2-independent microdomain Ca^{2+} in fine perisynaptic processes, dep...”
- [pasti_1997_jneurosci] “Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal [pasti_1997_jneurosci, duffy_1995_jneurosci, aguado_2002_jneurosci, fiacco_2004_jneurosci]. Within that framework, sparse waves and synchronous inter-astrocyte...”
- [duffy_1995_jneurosci] “Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal [pasti_1997_jneurosci, duffy_1995_jneurosci, aguado_2002_jneurosci, fiacco_2004_jneurosci]. Within that framework, sparse waves and synchronous inter-astrocyte...”
- [aguado_2002_jneurosci] “Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal [pasti_1997_jneurosci, duffy_1995_jneurosci, aguado_2002_jneurosci, fiacco_2004_jneurosci]. Within that framework, sparse waves and synchronous inter-astrocyte...”
- [fiacco_2004_jneurosci] “Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal [pasti_1997_jneurosci, duffy_1995_jneurosci, aguado_2002_jneurosci, fiacco_2004_jneurosci]. Within that framework, sparse waves and synchronous inter-astrocyte...”
- [hirase_2004_plosbiol] “Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal [pasti_1997_jneurosci, duffy_1995_jneurosci, aguado_2002_jneurosci, fiacco_2004_jneurosci]. Within that framework, sparse waves and synchronous inter-astrocyte...”
- [nimmerjahn_2009_neuron] “Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal [pasti_1997_jneurosci, duffy_1995_jneurosci, aguado_2002_jneurosci, fiacco_2004_jneurosci]. Within that framework, sparse waves and synchronous inter-astrocyte...”
- [scemes_2006_glia] “Early cortical and hippocampal reports of astrocyte Ca^{2+} were dominated by bulk-loaded organic dyes and cell-filling indicators that privileged the soma and large branches, and they framed astrocyte Ca^{2+} as a slow, GPCR-driven, spatially diffuse signal [pasti_1997_jneurosci, duffy_1995_jneurosci, aguado_2002_jneurosci, fiacco_2004_jneurosci]. Within that framework, sparse waves and synchronous inter-astrocyte...”
- [shigetomi_2013_neuroscience] “The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — "microdomains" — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...”
- [rungta_2016_glia] “The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — "microdomains" — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...”
- [agarwal_2017_neuron] “The compartmental picture emerged from deliberately targeting fine processes. Lck-tagged GCaMPs, combined with sparse viral expression, resolved fast, spatially restricted Ca^{2+} transients — "microdomains" — that are concentrated in distal branchlets, short-lasting, and largely invisible to somatic or bulk-dye recordings [shigetomi_2010_natneurosci, shigetomi_2013_general, shigetomi_2012_natneurosci, srinivasan_20...”
- [akerboom_2012_jneurosci] “Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics [akerboom_2012_jneurosci, akerboom_2013_frontmol]; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement [marvin_2013_natmethods]. In a head-to-head awake-mouse comparison for c...”
- [akerboom_2013_frontmol] “Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics [akerboom_2012_jneurosci, akerboom_2013_frontmol]; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement [marvin_2013_natmethods]. In a head-to-head awake-mouse comparison for c...”
- [marvin_2013_natmethods] “Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics [akerboom_2012_jneurosci, akerboom_2013_frontmol]; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement [marvin_2013_natmethods]. In a head-to-head awake-mouse comparison for c...”
- [ye_2017_plosone] “Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics [akerboom_2012_jneurosci, akerboom_2013_frontmol]; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement [marvin_2013_natmethods]. In a head-to-head awake-mouse comparison for c...”
- [shigetomi_2010_neuronglia] “Imaging technology tracked this compartmental reframing. GCaMP variants were engineered for progressively higher signal-to-noise and faster kinetics [akerboom_2012_jneurosci, akerboom_2013_frontmol]; complementary indicators of extracellular glutamate such as iGluSnFR opened the synaptic side of the tripartite synapse to independent measurement [marvin_2013_natmethods]. In a head-to-head awake-mouse comparison for c...”
- [agulhon_2010_science] “The Itpr2<sup>-/-</sup> (IP<sub>3</sub>R2-KO) mouse was for a decade the field's most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. [agulhon_2010_science] used IP<sub>3</sub>R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...”
- [agulhon_2008_neuron] “The Itpr2<sup>-/-</sup> (IP<sub>3</sub>R2-KO) mouse was for a decade the field's most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. [agulhon_2010_science] used IP<sub>3</sub>R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...”
- [takata_2011_jneurosci] “The Itpr2<sup>-/-</sup> (IP<sub>3</sub>R2-KO) mouse was for a decade the field's most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. [agulhon_2010_science] used IP<sub>3</sub>R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...”
- [chen_2012_procnatl] “The Itpr2<sup>-/-</sup> (IP<sub>3</sub>R2-KO) mouse was for a decade the field's most powerful loss-of-function handle on astrocyte Ca^{2+} and anchored a major conflict over whether astrocytes participate in synaptic transmission. [agulhon_2010_science] used IP<sub>3</sub>R2-KO mice together with astrocyte-targeted Gq- and Gi-DREADD manipulations and concluded that neither obliterating nor driving astrocyte Gq-coup...”
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